Mutation Rate In Human And Calculating Time From Diverged Sequences.
1
4
Entering edit mode
13.1 years ago

I have two sequences which used to be identical. During time they experienced several mutations, insertions or deletions. I would like to count time that passed.

I read about:

T=k/2r, where k=divergence, r=substitution rate, T=time

However, I read very ambiguous information about human mutation rate (I am interested mostly in mutation rate in retrotransposons) and about the calculation formula (there are many and many).

I would like to start with something really simple at the beginning.

Could you please advice me how to do it, supposing I have two sequences and substitution rate? Or some literature considering this topic? In many articles there stands just "we calculated" instead of exact formula.

Thanks a lot.

mutation • 9.6k views
ADD COMMENT
9
Entering edit mode
13.1 years ago

Under the neutral theory, the basic divergence formula is d = 2uT (divergence is equal to twice the mutation rate times time)

The factor of 2 comes from the fact that when comparing 2 sequences that diverged time T in the past, there are 2 branches on which independent evolutionary changes can occur.

    X       |
   X X      |
  X   X     | T
 X     X    |
X       X   |

Rearranging this expression gives an estimate of the divergence time:

T = d/2u

This assumes a molecular clock, which effectively implies neutral sequence divergence and a constant mutation rate u. The reason that no explicit method is given is because this is (for a point estimates) a simple calculation.

Mutation rates can be estimated directly via mutation accumulation experiments or by measuring new mutations in parent-offspring comparisons. A good review on the topic can be found here: http://rstb.royalsocietypublishing.org/content/365/1544/1169.full

If you are interested dating the age of insertions using intra-element LTR-LTR comparisons, I suggest you look into using REannotate, which can perform the calculation of d (its standard deviation) automatically: http://www.bioinformatics.org/reannotate/

ADD COMMENT

Login before adding your answer.

Traffic: 2465 users visited in the last hour
Help About
FAQ
Access RSS
API
Stats

Use of this site constitutes acceptance of our User Agreement and Privacy Policy.

Powered by the version 2.3.6